programs/datagen.c - platform/external/zstd - Git at Google

 /*
  * Copyright (c) 2016-2020, Yann Collet, Facebook, Inc.
  * All rights reserved.
  *
  * This source code is licensed under both the BSD-style license (found in the
  * LICENSE file in the root directory of this source tree) and the GPLv2 (found
  * in the COPYING file in the root directory of this source tree).
  * You may select, at your option, one of the above-listed licenses.
  */


 /*-************************************
 *  Dependencies
 **************************************/
 #include "datagen.h"
 #include "platform.h"  /* SET_BINARY_MODE */
 #include <stdlib.h>    /* malloc, free */
 #include <stdio.h>     /* FILE, fwrite, fprintf */
 #include <string.h>    /* memcpy */
 #include "../lib/common/mem.h"  /* U32 */


 /*-************************************
 *  Macros
 **************************************/
 #define KB *(1 <<10)
 #define MIN(a,b)  ( (a) < (b) ? (a) : (b) )

 #define RDG_DEBUG 0
 #define TRACE(...)   if (RDG_DEBUG) fprintf(stderr, __VA_ARGS__ )


 /*-************************************
 *  Local constants
 **************************************/
 #define LTLOG 13
 #define LTSIZE (1<<LTLOG)
 #define LTMASK (LTSIZE-1)


 /*-*******************************************************
 *  Local Functions
 *********************************************************/
 #define RDG_rotl32(x,r) ((x << r) | (x >> (32 - r)))
 static U32 RDG_rand(U32* src)
 {
     static const U32 prime1 = 2654435761U;
     static const U32 prime2 = 2246822519U;
     U32 rand32 = *src;
     rand32 *= prime1;
     rand32 ^= prime2;
     rand32  = RDG_rotl32(rand32, 13);
     *src = rand32;
     return rand32 >> 5;
 }

 typedef U32 fixedPoint_24_8;

 static void RDG_fillLiteralDistrib(BYTE* ldt, fixedPoint_24_8 ld)
 {
     BYTE const firstChar = (ld<=0.0) ?   0 : '(';
     BYTE const lastChar  = (ld<=0.0) ? 255 : '}';
     BYTE character = (ld<=0.0) ? 0 : '0';
     U32 u;

     if (ld<=0) ld = 0;
     for (u=0; u<LTSIZE; ) {
         U32 const weight = (((LTSIZE - u) * ld) >> 8) + 1;
         U32 const end = MIN ( u + weight , LTSIZE);
         while (u < end) ldt[u++] = character;
         character++;
         if (character > lastChar) character = firstChar;
     }
 }


 static BYTE RDG_genChar(U32* seed, const BYTE* ldt)
 {
     U32 const id = RDG_rand(seed) & LTMASK;
     return ldt[id];  /* memory-sanitizer fails here, stating "uninitialized value" when table initialized with P==0.0. Checked : table is fully initialized */
 }


 static U32 RDG_rand15Bits (U32* seedPtr)
 {
     return RDG_rand(seedPtr) & 0x7FFF;
 }

 static U32 RDG_randLength(U32* seedPtr)
 {
     if (RDG_rand(seedPtr) & 7) return (RDG_rand(seedPtr) & 0xF);   /* small length */
     return (RDG_rand(seedPtr) & 0x1FF) + 0xF;
 }

 static void RDG_genBlock(void* buffer, size_t buffSize, size_t prefixSize,
                          double matchProba, const BYTE* ldt, U32* seedPtr)
 {
     BYTE* const buffPtr = (BYTE*)buffer;
     U32 const matchProba32 = (U32)(32768 * matchProba);
     size_t pos = prefixSize;
     U32 prevOffset = 1;

     /* special case : sparse content */
     while (matchProba >= 1.0) {
         size_t size0 = RDG_rand(seedPtr) & 3;
         size0  = (size_t)1 << (16 + size0 * 2);
         size0 += RDG_rand(seedPtr) & (size0-1);   /* because size0 is power of 2*/
         if (buffSize < pos + size0) {
             memset(buffPtr+pos, 0, buffSize-pos);
             return;
         }
         memset(buffPtr+pos, 0, size0);
         pos += size0;
         buffPtr[pos-1] = RDG_genChar(seedPtr, ldt);
         continue;
     }

     /* init */
     if (pos==0) buffPtr[0] = RDG_genChar(seedPtr, ldt), pos=1;

     /* Generate compressible data */
     while (pos < buffSize) {
         /* Select : Literal (char) or Match (within 32K) */
         if (RDG_rand15Bits(seedPtr) < matchProba32) {
             /* Copy (within 32K) */
             U32 const length = RDG_randLength(seedPtr) + 4;
             U32 const d = (U32) MIN(pos + length , buffSize);
             U32 const repeatOffset = (RDG_rand(seedPtr) & 15) == 2;
             U32 const randOffset = RDG_rand15Bits(seedPtr) + 1;
             U32 const offset = repeatOffset ? prevOffset : (U32) MIN(randOffset , pos);
             size_t match = pos - offset;
             while (pos < d) { buffPtr[pos++] = buffPtr[match++];   /* correctly manages overlaps */ }
             prevOffset = offset;
         } else {
             /* Literal (noise) */
             U32 const length = RDG_randLength(seedPtr);
             U32 const d = (U32) MIN(pos + length, buffSize);
             while (pos < d) { buffPtr[pos++] = RDG_genChar(seedPtr, ldt); }
     }   }
 }


 void RDG_genBuffer(void* buffer, size_t size, double matchProba, double litProba, unsigned seed)
 {
     U32 seed32 = seed;
     BYTE ldt[LTSIZE];
     memset(ldt, '0', sizeof(ldt));  /* yes, character '0', this is intentional */
     if (litProba<=0.0) litProba = matchProba / 4.5;
     RDG_fillLiteralDistrib(ldt, (fixedPoint_24_8)(litProba * 256 + 0.001));
     RDG_genBlock(buffer, size, 0, matchProba, ldt, &seed32);
 }


 void RDG_genStdout(unsigned long long size, double matchProba, double litProba, unsigned seed)
 {
     U32 seed32 = seed;
     size_t const stdBlockSize = 128 KB;
     size_t const stdDictSize = 32 KB;
     BYTE* const buff = (BYTE*)malloc(stdDictSize + stdBlockSize);
     U64 total = 0;
     BYTE ldt[LTSIZE];   /* literals distribution table */

     /* init */
     if (buff==NULL) { perror("datagen"); exit(1); }
     if (litProba<=0.0) litProba = matchProba / 4.5;
     memset(ldt, '0', sizeof(ldt));   /* yes, character '0', this is intentional */
     RDG_fillLiteralDistrib(ldt, (fixedPoint_24_8)(litProba * 256 + 0.001));
     SET_BINARY_MODE(stdout);

     /* Generate initial dict */
     RDG_genBlock(buff, stdDictSize, 0, matchProba, ldt, &seed32);

     /* Generate compressible data */
     while (total < size) {
         size_t const genBlockSize = (size_t) (MIN (stdBlockSize, size-total));
         RDG_genBlock(buff, stdDictSize+stdBlockSize, stdDictSize, matchProba, ldt, &seed32);
         total += genBlockSize;
         { size_t const unused = fwrite(buff, 1, genBlockSize, stdout); (void)unused; }
         /* update dict */
         memcpy(buff, buff + stdBlockSize, stdDictSize);
     }

     /* cleanup */
     free(buff);
 }
	/*
	* Copyright (c) 2016-2020, Yann Collet, Facebook, Inc.
	* All rights reserved.
	*
	* This source code is licensed under both the BSD-style license (found in the
	* LICENSE file in the root directory of this source tree) and the GPLv2 (found
	* in the COPYING file in the root directory of this source tree).
	* You may select, at your option, one of the above-listed licenses.
	*/



	/-***********************************
	* Dependencies
	**************************************/
	#include "datagen.h"
	#include "platform.h" /* SET_BINARY_MODE */
	#include <stdlib.h> /* malloc, free */
	#include <stdio.h> /* FILE, fwrite, fprintf */
	#include <string.h> /* memcpy */
	#include "../lib/common/mem.h" /* U32 */


	/-***********************************
	* Macros
	**************************************/
	#define KB *(1 <<10)
	#define MIN(a,b) ( (a) < (b) ? (a) : (b) )

	#define RDG_DEBUG 0
	#define TRACE(...) if (RDG_DEBUG) fprintf(stderr, __VA_ARGS__ )


	/-***********************************
	* Local constants
	**************************************/
	#define LTLOG 13
	#define LTSIZE (1<<LTLOG)
	#define LTMASK (LTSIZE-1)


	/-******************************************************
	* Local Functions
	*********************************************************/
	#define RDG_rotl32(x,r) ((x << r) \| (x >> (32 - r)))
	static U32 RDG_rand(U32* src)
	{
	static const U32 prime1 = 2654435761U;
	static const U32 prime2 = 2246822519U;
	U32 rand32 = *src;
	rand32 *= prime1;
	rand32 ^= prime2;
	rand32 = RDG_rotl32(rand32, 13);
	*src = rand32;
	return rand32 >> 5;
	}

	typedef U32 fixedPoint_24_8;

	static void RDG_fillLiteralDistrib(BYTE* ldt, fixedPoint_24_8 ld)
	{
	BYTE const firstChar = (ld<=0.0) ? 0 : '(';
	BYTE const lastChar = (ld<=0.0) ? 255 : '}';
	BYTE character = (ld<=0.0) ? 0 : '0';
	U32 u;

	if (ld<=0) ld = 0;
	for (u=0; u<LTSIZE; ) {
	U32 const weight = (((LTSIZE - u) * ld) >> 8) + 1;
	U32 const end = MIN ( u + weight , LTSIZE);
	while (u < end) ldt[u++] = character;
	character++;
	if (character > lastChar) character = firstChar;
	}
	}


	static BYTE RDG_genChar(U32* seed, const BYTE* ldt)
	{
	U32 const id = RDG_rand(seed) & LTMASK;
	return ldt[id]; /* memory-sanitizer fails here, stating "uninitialized value" when table initialized with P==0.0. Checked : table is fully initialized */
	}


	static U32 RDG_rand15Bits (U32* seedPtr)
	{
	return RDG_rand(seedPtr) & 0x7FFF;
	}

	static U32 RDG_randLength(U32* seedPtr)
	{
	if (RDG_rand(seedPtr) & 7) return (RDG_rand(seedPtr) & 0xF); /* small length */
	return (RDG_rand(seedPtr) & 0x1FF) + 0xF;
	}

	static void RDG_genBlock(void* buffer, size_t buffSize, size_t prefixSize,
	double matchProba, const BYTE* ldt, U32* seedPtr)
	{
	BYTE* const buffPtr = (BYTE*)buffer;
	U32 const matchProba32 = (U32)(32768 * matchProba);
	size_t pos = prefixSize;
	U32 prevOffset = 1;

	/* special case : sparse content */
	while (matchProba >= 1.0) {
	size_t size0 = RDG_rand(seedPtr) & 3;
	size0 = (size_t)1 << (16 + size0 * 2);
	size0 += RDG_rand(seedPtr) & (size0-1); /* because size0 is power of 2*/
	if (buffSize < pos + size0) {
	memset(buffPtr+pos, 0, buffSize-pos);
	return;
	}
	memset(buffPtr+pos, 0, size0);
	pos += size0;
	buffPtr[pos-1] = RDG_genChar(seedPtr, ldt);
	continue;
	}

	/* init */
	if (pos==0) buffPtr[0] = RDG_genChar(seedPtr, ldt), pos=1;

	/* Generate compressible data */
	while (pos < buffSize) {
	/* Select : Literal (char) or Match (within 32K) */
	if (RDG_rand15Bits(seedPtr) < matchProba32) {
	/* Copy (within 32K) */
	U32 const length = RDG_randLength(seedPtr) + 4;
	U32 const d = (U32) MIN(pos + length , buffSize);
	U32 const repeatOffset = (RDG_rand(seedPtr) & 15) == 2;
	U32 const randOffset = RDG_rand15Bits(seedPtr) + 1;
	U32 const offset = repeatOffset ? prevOffset : (U32) MIN(randOffset , pos);
	size_t match = pos - offset;
	while (pos < d) { buffPtr[pos++] = buffPtr[match++]; /* correctly manages overlaps */ }
	prevOffset = offset;
	} else {
	/* Literal (noise) */
	U32 const length = RDG_randLength(seedPtr);
	U32 const d = (U32) MIN(pos + length, buffSize);
	while (pos < d) { buffPtr[pos++] = RDG_genChar(seedPtr, ldt); }
	} }
	}


	void RDG_genBuffer(void* buffer, size_t size, double matchProba, double litProba, unsigned seed)
	{
	U32 seed32 = seed;
	BYTE ldt[LTSIZE];
	memset(ldt, '0', sizeof(ldt)); /* yes, character '0', this is intentional */
	if (litProba<=0.0) litProba = matchProba / 4.5;
	RDG_fillLiteralDistrib(ldt, (fixedPoint_24_8)(litProba * 256 + 0.001));
	RDG_genBlock(buffer, size, 0, matchProba, ldt, &seed32);
	}


	void RDG_genStdout(unsigned long long size, double matchProba, double litProba, unsigned seed)
	{
	U32 seed32 = seed;
	size_t const stdBlockSize = 128 KB;
	size_t const stdDictSize = 32 KB;
	BYTE* const buff = (BYTE*)malloc(stdDictSize + stdBlockSize);
	U64 total = 0;
	BYTE ldt[LTSIZE]; /* literals distribution table */

	/* init */
	if (buff==NULL) { perror("datagen"); exit(1); }
	if (litProba<=0.0) litProba = matchProba / 4.5;
	memset(ldt, '0', sizeof(ldt)); /* yes, character '0', this is intentional */
	RDG_fillLiteralDistrib(ldt, (fixedPoint_24_8)(litProba * 256 + 0.001));
	SET_BINARY_MODE(stdout);

	/* Generate initial dict */
	RDG_genBlock(buff, stdDictSize, 0, matchProba, ldt, &seed32);

	/* Generate compressible data */
	while (total < size) {
	size_t const genBlockSize = (size_t) (MIN (stdBlockSize, size-total));
	RDG_genBlock(buff, stdDictSize+stdBlockSize, stdDictSize, matchProba, ldt, &seed32);
	total += genBlockSize;
	{ size_t const unused = fwrite(buff, 1, genBlockSize, stdout); (void)unused; }
	/* update dict */
	memcpy(buff, buff + stdBlockSize, stdDictSize);
	}

	/* cleanup */
	free(buff);
	}